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Symbiotic polyamine metabolism regulates epithelial proliferation and macrophage differentiation in the colon

Author

Listed:
  • Atsuo Nakamura

    (Keio University, Minato-ku
    Kyodo Milk Industry Co., Ltd., Hinode-machi, Nishitama-gun)

  • Shin Kurihara

    (Ishikawa Prefectural University
    Kindai University)

  • Daisuke Takahashi

    (Keio University, Minato-ku)

  • Wakana Ohashi

    (Keio University, Minato-ku)

  • Yutaka Nakamura

    (Keio University, Minato-ku)

  • Shunsuke Kimura

    (Keio University, Minato-ku
    PRESTO, Japan Science and Technology Agency)

  • Masayoshi Onuki

    (Keio University, Minato-ku)

  • Aiko Kume

    (Kyodo Milk Industry Co., Ltd., Hinode-machi, Nishitama-gun)

  • Yukiko Sasazawa

    (Juntendo University, Bunkyo-ku)

  • Yukihiro Furusawa

    (Keio University, Minato-ku
    Toyama Prefectural University)

  • Yuuki Obata

    (Keio University, Minato-ku
    The Francis Crick Institute)

  • Shinji Fukuda

    (PRESTO, Japan Science and Technology Agency
    Keio University
    University of Tsukuba
    Kanagawa Institute of Industrial Science and Technology)

  • Shinji Saiki

    (Juntendo University, Bunkyo-ku)

  • Mitsuharu Matsumoto

    (Kyodo Milk Industry Co., Ltd., Hinode-machi, Nishitama-gun)

  • Koji Hase

    (Keio University, Minato-ku
    The University of Tokyo (IMSUT), Bunkyo-ku)

Abstract

Intestinal microbiota-derived metabolites have biological importance for the host. Polyamines, such as putrescine and spermidine, are produced by the intestinal microbiota and regulate multiple biological processes. Increased colonic luminal polyamines promote longevity in mice. However, no direct evidence has shown that microbial polyamines are incorporated into host cells to regulate cellular responses. Here, we show that microbial polyamines reinforce colonic epithelial proliferation and regulate macrophage differentiation. Colonisation by wild-type, but not polyamine biosynthesis-deficient, Escherichia coli in germ-free mice raises intracellular polyamine levels in colonocytes, accelerating epithelial renewal. Commensal bacterium-derived putrescine increases the abundance of anti-inflammatory macrophages in the colon. The bacterial polyamines ameliorate symptoms of dextran sulfate sodium-induced colitis in mice. These effects mainly result from enhanced hypusination of eukaryotic initiation translation factor. We conclude that bacterial putrescine functions as a substrate for symbiotic metabolism and is further absorbed and metabolised by the host, thus helping maintain mucosal homoeostasis in the intestine.

Suggested Citation

  • Atsuo Nakamura & Shin Kurihara & Daisuke Takahashi & Wakana Ohashi & Yutaka Nakamura & Shunsuke Kimura & Masayoshi Onuki & Aiko Kume & Yukiko Sasazawa & Yukihiro Furusawa & Yuuki Obata & Shinji Fukuda, 2021. "Symbiotic polyamine metabolism regulates epithelial proliferation and macrophage differentiation in the colon," Nature Communications, Nature, vol. 12(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-22212-1
    DOI: 10.1038/s41467-021-22212-1
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